Compute stress and strain#
In this demo we show how to compute stress and strain
import dolfin
try:
from dolfin_adjoint import Constant, DirichletBC, Function, project
except ImportError:
from dolfin import DirichletBC, Constant, project, Function
import pulse
from fenics_plotly import plot
gamma_space = "R_0"
geometry = pulse.Geometry.from_file(pulse.mesh_paths["prolate_ellipsoid"])
# geometry = pulse.geometries.prolate_ellipsoid_geometry(mesh_size_factor=3.0)
geometry.mesh.coordinates()[:] *= 0.1
# breakpoint()
activation = Function(dolfin.FunctionSpace(geometry.mesh, "R", 0))
2024-02-10 09:52:31,281 [500] INFO pulse.geometry_utils:
Load mesh from h5
matparams = pulse.HolzapfelOgden.default_parameters()
material = pulse.HolzapfelOgden(
active_model=pulse.ActiveModels.active_stress,
T_ref=1.0, # Total active stress should be activation * T_ref
eta=0.2, # Fraction of transverse stress
activation=activation,
parameters=matparams,
f0=geometry.f0,
s0=geometry.s0,
n0=geometry.n0,
)
# LV Pressure
lvp = Constant(0.0)
lv_marker = geometry.markers["ENDO"][0]
lv_pressure = pulse.NeumannBC(traction=lvp, marker=lv_marker, name="lv")
neumann_bc = [lv_pressure]
# Add spring term at the base with stiffness 1.0 kPa/cm^2
base_spring = 1.0
robin_bc = [
pulse.RobinBC(value=Constant(base_spring), marker=geometry.markers["BASE"][0]),
]
def fix_basal_plane(W):
V = W if W.sub(0).num_sub_spaces() == 0 else W.sub(0)
bc = DirichletBC(
V.sub(0),
Constant(0.0),
geometry.ffun,
geometry.markers["BASE"][0],
)
return bc
dirichlet_bc = [fix_basal_plane]
# Collect boundary conditions
bcs = pulse.BoundaryConditions(
dirichlet=dirichlet_bc,
neumann=neumann_bc,
robin=robin_bc,
)
# Create the problem
problem = pulse.MechanicsProblem(geometry, material, bcs)
# Solve the problem
pulse.iterate.iterate(problem, lvp, 15.0, max_nr_crash=100, max_iters=100)
pulse.iterate.iterate(problem, activation, 60.0)
2024-02-10 09:52:31,354 [500] INFO pulse.iterate: Iterating to target control (f_35)...
2024-02-10 09:52:31,354 [500] INFO pulse.iterate: Current control: f_35 = 0.000
2024-02-10 09:52:31,355 [500] INFO pulse.iterate: Target: 15.000
2024-02-10 09:52:31,479 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,479 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,480 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,480 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,481 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,482 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,482 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,483 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,484 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,484 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,485 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,485 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:31,486 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:52:32,480 [500] DEBUG UFL_LEGACY: Blocks of each mode:
99 full
2024-02-10 09:52:32,556 [500] DEBUG UFL_LEGACY: Blocks of each mode:
2024-02-10 09:52:32,764 [500] DEBUG UFL_LEGACY: Blocks of each mode:
18 full
2024-02-10 09:53:36,655 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,656 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,657 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,657 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,658 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,658 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,659 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,659 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,660 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,660 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,661 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,661 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,662 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:36,844 [500] DEBUG UFL_LEGACY: Blocks of each mode:
10 full
2024-02-10 09:53:36,919 [500] DEBUG UFL_LEGACY: Blocks of each mode:
3 full
2024-02-10 09:53:37,113 [500] DEBUG UFL_LEGACY: Blocks of each mode:
3 full
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 1 iterations with divergence reason DIVERGED_DTOL.
*** Warning: PETSc SNES solver diverged in 1 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 1 iterations with divergence reason DIVERGED_FNORM_NAN.
*** Warning: PETSc SNES solver diverged in 1 iterations with divergence reason DIVERGED_FNORM_NAN.
2024-02-10 09:53:46,474 [500] INFO pulse.iterate: Iterating to target control (f_22)...
2024-02-10 09:53:46,475 [500] INFO pulse.iterate: Current control: f_22 = 0.000
2024-02-10 09:53:46,475 [500] INFO pulse.iterate: Target: 60.000
*** Warning: PETSc SNES solver diverged in 0 iterations with divergence reason DIVERGED_FNORM_NAN.
([Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), MixedElement(VectorElement(FiniteElement('Lagrange', tetrahedron, 2), dim=3), FiniteElement('Lagrange', tetrahedron, 1))), 1202),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), MixedElement(VectorElement(FiniteElement('Lagrange', tetrahedron, 2), dim=3), FiniteElement('Lagrange', tetrahedron, 1))), 1266),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), MixedElement(VectorElement(FiniteElement('Lagrange', tetrahedron, 2), dim=3), FiniteElement('Lagrange', tetrahedron, 1))), 1391),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), MixedElement(VectorElement(FiniteElement('Lagrange', tetrahedron, 2), dim=3), FiniteElement('Lagrange', tetrahedron, 1))), 1454),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), MixedElement(VectorElement(FiniteElement('Lagrange', tetrahedron, 2), dim=3), FiniteElement('Lagrange', tetrahedron, 1))), 1533),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), MixedElement(VectorElement(FiniteElement('Lagrange', tetrahedron, 2), dim=3), FiniteElement('Lagrange', tetrahedron, 1))), 1597)],
[Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), FiniteElement('Real', tetrahedron, 0)), 1200),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), FiniteElement('Real', tetrahedron, 0)), 1264),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), FiniteElement('Real', tetrahedron, 0)), 1389),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), FiniteElement('Real', tetrahedron, 0)), 1452),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), FiniteElement('Real', tetrahedron, 0)), 1531),
Coefficient(FunctionSpace(Mesh(VectorElement(FiniteElement('Lagrange', tetrahedron, 1), dim=3), 1), FiniteElement('Real', tetrahedron, 0)), 1595)])
V = dolfin.VectorFunctionSpace(geometry.mesh, "CG", 1)
u, p = problem.state.split(deepcopy=True)
# u_int = interpolate(u, V)
# mesh = Mesh(geometry.mesh)
# dolfin.ALE.move(mesh, u_int)
# Get the solution
# u, p = problem.state.split(deepcopy=True)
# dolfin.File("u.pvd") << u
W = dolfin.FunctionSpace(geometry.mesh, "CG", 1)
F = pulse.kinematics.DeformationGradient(u)
E = pulse.kinematics.GreenLagrangeStrain(F)
# Green strain normal to fiber direction
Ef = project(dolfin.inner(E * geometry.f0, geometry.f0), W)
# Save to file for visualization in paraview
# dolfin.File("Ef.pvd") << Ef
plot(Ef)
2024-02-10 09:53:48,639 [500] DEBUG UFL_LEGACY: Blocks of each mode:
2024-02-10 09:53:49,047 [500] DEBUG UFL_LEGACY: Blocks of each mode:
1 full
<fenics_plotly.fenics_plotly.FEniCSPlotFig at 0x7fdd2bbb5930>
P = material.FirstPiolaStress(F, p)
# First piola stress normal to fiber direction
Pf = project(dolfin.inner(P * geometry.f0, geometry.f0), W)
# Save to file for visualization in paraview
# dolfin.File("Pf.pvd") << Pf
plot(Pf, colorscale="viridis")
2024-02-10 09:53:49,891 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,891 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,892 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,892 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,893 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,894 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,895 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,895 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,896 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,896 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:49,896 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:50,138 [500] DEBUG UFL_LEGACY: Blocks of each mode:
1 full
<fenics_plotly.fenics_plotly.FEniCSPlotFig at 0x7fdd2098d810>
T = material.CauchyStress(F, p)
f = F * geometry.f0
# Cauchy fiber stress
Tf = dolfin.project(dolfin.inner(T * f, f), W)
# Save to file for visualization in paraview
# dolfin.File("Tf.pvd") << Tf
plot(Tf, colorscale="jet")
2024-02-10 09:53:51,052 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,052 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,053 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,053 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,054 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,054 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,056 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,056 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,056 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,057 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,057 [500] INFO UFL_LEGACY: Adjusting missing element cell to tetrahedron.
2024-02-10 09:53:51,305 [500] DEBUG UFL_LEGACY: Blocks of each mode:
1 full
<fenics_plotly.fenics_plotly.FEniCSPlotFig at 0x7fdd2089fa90>